CN111735023A

CN111735023A - Wind power generation illumination street lamp

Info

Publication number: CN111735023A
Application number: CN202010808061.6A
Authority: CN
Inventors: 李军
Original assignee: Jinan Tongcho Lamps Co ltd
Current assignee: Jinan Tongcho Lamps Co ltd
Priority date: 2020-08-12
Filing date: 2020-08-12
Publication date: 2020-10-02

Abstract

The invention relates to the field related to wind energy, in particular to a wind power generation lighting street lamp, which comprises a base with the lower end fixedly connected and arranged on the ground, and is characterized in that: the upper end of the base is fixedly provided with a lamp bracket for supporting the street lamp, the uppermost end of the lamp bracket is rotatably provided with a cabin, the left end of the cabin is provided with a wind power generation device impeller for providing power for the street lamp, the wind power generation device impeller comprises a rotatable hub, and the urban road street lamp in an open area can generate power by using wind energy, so that the total power consumption of the city is greatly reduced; an energy storage system is attached beside the wind driven generator, so that the power utilization requirement of road illumination is met when the wind driven generator is low in efficiency, the influence of environmental factors is small, and the work is stable; the water storage tank is arranged on the street lamp, rainwater can be collected, and the green plants beside the street lamp can be watered when necessary.

Description

Wind power generation illumination street lamp

Technical Field

The invention relates to the field related to wind energy, in particular to a wind power generation lighting street lamp.

Background

The wind energy is available energy provided to human beings due to the work done by the air flow, belongs to renewable energy, and has the characteristics of large reserve and wide distribution. At present, the shadow of the wind power generator can be seen all over the world, and the proportion of the power generation amount generated by wind energy to the total power generation amount is gradually increased.

The existing wind power generation technology is not mature, wind power in many areas has the characteristic of intermittence, the daytime wind power with higher power demand is less, the power consumption demand of people cannot be met, an energy storage system needs to be equipped in the process of wind power generation, in addition, the wind power generation can generate huge noise, interference to the daily life of surrounding residents to a certain degree can be caused, and the wind power generation street lamp cannot be applied to urban road equipment.

Disclosure of Invention

The invention aims to provide a wind power generation lighting street lamp which can overcome the defects in the prior art, so that the practicability of equipment is improved.

The technical scheme adopted by the invention for solving the technical problems is as follows: a wind power generation lighting street lamp comprises a base, wherein the lower end of the base is fixedly connected with the ground, a lamp bracket used for supporting a street lamp is fixedly arranged at the upper end of the base, the uppermost end of the lamp bracket is rotatably provided with an engine room, the left end of the engine room is provided with a wind power generation device impeller used for providing power for the street lamp, the wind power generation device impeller comprises a rotatable wheel hub, the wheel hub is rotatably provided with an impeller seat fixedly arranged on the periphery, when wind passes through the impeller, the impeller can be driven to rotate, so that wind energy is converted into mechanical energy generated by rotary motion, a generator used for converting the mechanical energy generated by rotation into electric energy is fixedly arranged in the end wall at the right side of a power generation cavity arranged in the engine room, when the impeller rotates, the generator can be driven to generate power through gear transmission in the power generation cavity, and the power is transmitted into a storage battery used for storing the electric energy and arranged above, the storage battery can continuously accumulate power in the daytime for the street lamp to use at night, an inverter used for discharging at night is arranged in the storage battery, a light measuring element used for measuring the intensity of ambient light is fixedly arranged on the end face of the upper side of the cabin, when the day is finished, the light measuring element measures that the ambient light is weakened, the light measuring element controls the inverter to be started, the inverter controls the storage battery to discharge, the power in the storage battery is supplied to the street lamp and enables the street lamp to be lighted up to illuminate a road, a monitoring device impeller used for detecting the ambient environment condition is arranged on the right side of the cabin, the monitoring device impeller comprises a monitoring connecting rod arranged on the right side of the cabin, a wind vane and a wind speed indicator are rotatably arranged on the monitoring connecting rod, and the wind vane can control the cabin to rotate when the wind direction changes, the impeller always faces the wind direction to obtain the maximum rotating speed, the anemoscope can control the impeller and the wind direction to deviate by a certain angle when the wind speed is overlarge, so that the rotating speed of the impeller is reduced, a certain protection effect is achieved, the water storage device impeller for storing rainwater is arranged below the engine room, the water storage device impeller comprises a water suction pump fixedly arranged in a lamp bracket, the water suction pump is communicated with a water storage cylinder fixedly connected and arranged on the lamp bracket and used for storing rainwater, the water suction pump can convey the rainwater in the water storage cylinder to a rainwater wrapping cavity arranged in the engine room, so that the noise generated in the engine room is converted into the vibration of the rainwater, the noise is effectively reduced, and the water storage cylinder can spray the rainwater to plants on two sides of the lamp bracket through a shower head arranged below the water storage cylinder in hot days, finally, the wind power generation lighting street lamp is realized.

Further, the impeller of the wind power generation device comprises a street lamp bracket fixedly connected and arranged on the lamp bracket below the engine room, the street lamp is fixedly connected with the bottom end of the street lamp bracket, the left end of the wheel hub is fixedly connected with the air guide sleeve, a low-speed power generation shaft is fixedly connected with the right end wall of the hub, a low-speed power generation straight gear is fixedly connected with the low-speed power generation shaft in the power generation cavity, the left end of the generator is fixedly connected with a high-speed generating shaft, the left end of the high-speed generating shaft is fixedly connected with a high-speed generating straight gear meshed with the low-speed generating straight gear, a brake motor is fixedly connected in the bottom wall of the power generation cavity, a brake clamp is fixedly connected at the upper end of the brake motor, the brake clamp is provided with a brake turntable which is fixedly connected with the high-speed power generation shaft so as to complete the wind power generation function of the design.

Further, the water storage device impeller comprises a water storage cavity arranged in the water storage cylinder, the lamp bracket penetrates through the inside of the water storage cavity, a second water-discharging electromagnetic valve is fixedly connected between the left side bottom wall of the water storage cavity and the upper end wall of the shower seat, a shower is arranged on the lower side end wall of the shower seat, a water collecting water pipe is fixedly connected between the right side top wall of the water storage cavity and the upper end wall of the street lamp bracket, a first water supply water pipe is fixedly connected between the water storage cavity and the left end of the water suction pump, a second water supply water pipe is fixedly connected with the upper end of the water suction pump, the rainwater wrapping cavity is communicated with the third monitoring cavity, the power generation cavity and the second cabin monitoring cavity, a first water-discharging electromagnetic valve is arranged in the bottom end of the right wall of the rainwater wrapping cavity, and a cabin chassis fixedly connected and arranged on the cabin lamp bracket is rotatably connected in the lower end wall of the cabin, the upper end wall of the cabin chassis is connected with the lower end wall of the rainwater wrapping cavity, a third water supply pipe penetrating through the cabin chassis is arranged at the left end of the cabin chassis, and the lower end of the third water supply pipe is fixedly connected with the second water supply pipe so as to complete the water storage function of the design.

Further, the monitoring device impeller comprises a monitoring base fixedly connected and arranged on the right side end wall of the cabin, a first cabin monitoring cavity is arranged in the monitoring base, a monitoring connecting rod is arranged above the first cabin monitoring cavity and the monitoring base in a rotating connection mode, a first cabin monitoring belt pulley is fixedly connected and arranged in the first cabin monitoring cavity through the monitoring connecting rod, a vane shaft sleeve is fixedly connected and arranged at the upper end of the monitoring connecting rod, the vane is fixedly connected and arranged on the vane shaft sleeve, an anemoscope shaft sleeve fixedly connected and arranged on the monitoring connecting rod is arranged below the vane, the anemoscope is arranged on the anemoscope shaft sleeve in a rotating connection mode, an anemospeed measuring element fixedly connected and arranged on the anemoscope shaft sleeve is arranged below the anemoscope, and a second cabin monitoring cavity is arranged in the cabin, a third cabin monitoring cavity is arranged below the second cabin monitoring cavity, a cabin monitoring rotating shaft is arranged between the second cabin monitoring cavity and the third cabin monitoring cavity in a rotating connection mode, a second cabin monitoring belt wheel is fixedly connected in the second cabin monitoring cavity, the second cabin monitoring belt wheel is in transmission connection with a gun monitoring belt on the ss first cabin monitoring belt wheel, a first cabin monitoring straight gear is fixedly connected in the third cabin monitoring cavity through the cabin monitoring rotating shaft, a cabin monitoring straight gear connecting rod is fixedly connected in the third cabin monitoring cavity at the upper end of the lamp support, a second cabin monitoring straight gear meshed with the first cabin monitoring straight gear is fixedly connected at the upper end of the cabin monitoring straight gear connecting rod, and an empennage is fixedly connected at the tail part of the impeller, the utility model discloses a monitoring device for the automobile tail, including fin afterbody fixed connection, the fin afterbody is equipped with the sawtooth trailing edge, be equipped with impeller control chamber in the wheel hub, be equipped with impeller control motor in the end wall of impeller control chamber right side, what impeller control motor left end power was connected is equipped with impeller control motor shaft, impeller control motor shaft left end is in impeller control intracavity fixed connection is equipped with first impeller control bevel gear, the impeller with rotate between the impeller control chamber and be connected be equipped with impeller control pivot, impeller control pivot outer end with impeller fixed connection, impeller control pivot inner end is in impeller control intracavity fixed connection be equipped with first impeller control bevel gear engaged with second impeller control bevel gear to accomplish the monitor function of this design.

The invention has the beneficial effects that: the wind power generation lighting street lamp is mainly applied to urban road lighting street lamps, and can enable the urban road street lamps in open areas to generate power by using wind power, so that the total power consumption of cities is greatly reduced; an energy storage system is attached beside the wind driven generator, so that the power utilization requirement of road illumination is met when the wind driven generator is low in efficiency, the influence of environmental factors is small, and the work is stable; be equipped with the cistern on the street lamp, can collect the rainwater, can water for the other green plant of street lamp when necessary, can utilize the water pump to live whole fuselage with rainwater parcel in addition, make the noise that produces in the fuselage turn into the vibration of rivers to effectively making an uproar falls, in addition, be equipped with the sawtooth trailing edge at the impeller afterbody, the noise that produces when effectively reducing the impeller rotation, environmental protection nature is better.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall structure of a wind power generation lighting street lamp according to the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is an enlarged view of the structure at "B" in FIG. 1;

FIG. 4 is an enlarged view of the structure at "C" of FIG. 1;

FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1 to 5, for the sake of convenience of description, the following orientations are now defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a wind power generation lighting street lamp, which is mainly applied to urban road lighting street lamps and is further explained by combining the attached drawings of the invention.

The invention relates to a wind power generation lighting street lamp, which comprises a base 44, wherein the lower end of the base 44 is fixedly connected with the ground, a lamp holder 30 used for supporting a street lamp 34 is fixedly arranged at the upper end of the base 44, a cabin 14 is rotatably arranged at the uppermost end of the lamp holder 30, a wind power generation device impeller 101 used for providing power for the street lamp 34 is arranged at the left end of the cabin 14, the wind power generation device impeller 101 comprises a rotatable hub 67, an impeller seat 11 which is fixedly arranged on the periphery of the hub 67 is rotatably provided with an impeller 10, when wind passes through the impeller 10, the impeller 10 can be driven to rotate, so that wind energy is converted into mechanical energy generated by rotary motion, a generator 57 used for converting the mechanical energy generated by rotation into electric energy is fixedly arranged in the right side end wall of a power generation cavity 15 arranged in the cabin 14, and when the impeller 10 rotates, the generator 57 can be driven to generate power through gear transmission in the power generation cavity, and transmits electricity to a storage battery 58 for storing electric energy provided above the generator 57, the storage battery 58 can continuously store electric power during the daytime for the street lamp 34 at night, an inverter 59 for discharging at night is provided in the storage battery 58, a light measuring element 16 for measuring the intensity of ambient light is fixedly provided on the upper side end surface of the cabin 14, when the daytime ends, the light measuring element 16 measures that the ambient light is weakened, the light measuring element 16 controls the inverter 59 to turn on, the inverter 59 controls the storage battery 58 to discharge electricity, the electric power in the storage battery 58 is provided to the street lamp 34 and lights up the street lamp 34 to illuminate the road, a monitoring device impeller 103 for detecting the ambient environmental conditions is provided on the right side of the cabin 14, the monitoring device impeller 103 includes a monitoring link 20 provided on the right side of the cabin 14, the wind vane 19 and the anemoscope 21 are rotatably arranged on the monitoring connecting rod 20, the wind vane 19 can control the rotation of the cabin 14 when the wind direction changes, so that the impeller 10 always faces the wind direction, thereby obtaining the maximum rotating speed, the anemoscope 21 can control the impeller 10 and the wind direction to deviate a certain angle when the wind speed is too high, thereby reducing the rotating speed of the impeller 10 and playing a certain protection role, a water storage device impeller 102 for storing rainwater is arranged below the cabin 14, the water storage device impeller 102 comprises a water suction pump 35 fixedly arranged in the lamp holder 30, the water suction pump 35 is communicated with a water storage cylinder 37 fixedly connected and arranged on the lamp holder 30 and used for storing rainwater, the water suction pump 35 can convey the rainwater in the water storage cylinder 37 into a rainwater wrapping cavity 17 arranged in the cabin 14, so that the noise generated in the cabin 14 is converted into the vibration of rainwater, therefore, the noise is effectively reduced, rainwater can be sprayed to plants on two sides of the lamp holder 30 through the shower head 40 arranged below the water storage tank 37 in hot days by the water storage tank 37, and finally the wind power generation lighting street lamp is designed.

Beneficially, the wind power generation device impeller 101 includes a road lamp holder 33 fixedly connected below the nacelle 14 and arranged on the lamp holder 30, the road lamp holder 33 is provided with the street lamp 34 at the bottom end fixedly connected, the left end fixedly connected with the hub 67 is provided with the dome 12, the right end wall of the hub 67 is provided with a low-speed power generation shaft 48 fixedly connected, the low-speed power generation shaft 48 is fixedly connected in the power generation cavity 15 and is provided with a low-speed power generation spur gear 49, the left end fixedly connected with the generator 57 is provided with a high-speed power generation shaft 51, the left end fixedly connected with the high-speed power generation shaft 51 is provided with a high-speed power generation spur gear 50 engaged with the low-speed power generation spur gear 49, the bottom wall of the power generation cavity 15 is fixedly connected with a brake motor 54, the upper end fixedly connected with a brake clamp 53, the brake clamp 53 is provided with a brake turntable 52 fixedly connected and arranged on the high-speed power generation shaft 51, so as to complete the wind power generation function of the design.

Beneficially, the water storage device impeller 102 includes a water storage cavity 68 provided in the water storage tank 37, the lamp holder 30 penetrates through the water storage cavity 68, a second water discharge solenoid valve 38 fixedly connected between the left side bottom wall of the water storage cavity 68 and the upper end wall of the shower head seat 39, a shower head 40 is provided on the lower side end wall of the shower head seat 39, a water collection pipe 32 fixedly connected between the right side top wall of the water storage cavity 68 and the upper end wall of the street lamp holder 33, a first water supply pipe 36 fixedly connected between the water storage cavity 68 and the left end of the water pump 35, a second water supply pipe 31 fixedly connected to the upper end of the water pump 35, the third cabin monitoring cavity 25, the power generation cavity 15 and the second cabin monitoring cavity 60 are externally communicated and provided with the rainwater package cavity 17, a first water discharge solenoid valve 27 is provided in the bottom end of the right wall of the rainwater package cavity 17, the lower end wall of the cabin 14 is rotatably connected and provided with a cabin chassis 55 fixedly connected and arranged on the lamp holder 30, the upper end wall of the cabin chassis 55 is connected with the lower end wall of the rainwater wrapping cavity 17, the left end of the cabin chassis 55 is provided with a third water supply pipe 56 penetrating through the cabin chassis 55, and the lower end of the third water supply pipe 56 is fixedly connected with the second water supply pipe 31 so as to complete the water storage function of the design.

Advantageously, the monitoring device impeller 103 includes a monitoring base 24 fixedly connected to the right end wall of the nacelle 14, a first nacelle monitoring cavity 64 is provided in the monitoring base 24, the first nacelle monitoring cavity 64 is rotatably connected to a monitoring link 20 provided above the monitoring base 24, the monitoring link 20 is fixedly connected to a first nacelle monitoring pulley 65 in the first nacelle monitoring cavity 64, a vane sleeve 18 is fixedly connected to the upper end of the monitoring link 20, the vane 19 is fixedly connected to the vane sleeve 18, an anemoscope sleeve 22 fixedly connected to the monitoring link 20 is provided below the vane 19, the anemoscope 21 is rotatably connected to the anemoscope sleeve 22, and the anemoscope 23 fixedly connected to the anemoscope sleeve 22 is provided below the anemoscope 21, a second cabin monitoring cavity 60 is arranged in the cabin 14, a third cabin monitoring cavity 25 is arranged below the second cabin monitoring cavity 60, a cabin monitoring rotating shaft 61 is arranged between the second cabin monitoring cavity 60 and the third cabin monitoring cavity 25 in a rotating connection manner, a second cabin monitoring belt pulley 62 is fixedly connected in the second cabin monitoring cavity 60 by the cabin monitoring rotating shaft 61, the second cabin monitoring belt pulley 62 is in transmission connection with a gun monitoring belt 63 on a ss first cabin monitoring belt pulley 65, a first cabin monitoring spur gear 26 is fixedly connected in the third cabin monitoring cavity 25 by the cabin monitoring rotating shaft 61, a cabin monitoring spur gear connecting rod 29 is fixedly connected in the third cabin monitoring cavity 25 by the upper end of the lamp holder 30, a second cabin monitoring spur gear 28 meshed with the first cabin monitoring spur gear 26 is fixedly connected to the upper end of the cabin monitoring spur gear connecting rod 29, the tail part of the impeller 10 is fixedly connected with a tail wing 13, the tail part of the tail wing 13 is fixedly connected with a sawtooth tail edge 66, an impeller monitoring cavity 41 is arranged in the hub 67, an impeller monitoring motor 43 is arranged in the right end wall of the impeller monitoring cavity 41, the left end of the impeller monitoring motor 43 is connected with an impeller monitoring motor shaft 42 in a power mode, the left end of the impeller monitoring motor shaft 42 is fixedly connected with a first impeller monitoring bevel gear 46 in the impeller monitoring cavity 41, an impeller monitoring rotating shaft 45 is rotatably connected between the impeller 10 and the impeller monitoring cavity 41, the outer end of the impeller monitoring rotating shaft 45 is fixedly connected with the impeller 10, and the inner end of the impeller monitoring rotating shaft 45 is fixedly connected with a second impeller monitoring bevel gear 47 meshed with the first impeller monitoring bevel gear 46 in the impeller monitoring cavity 41, so that the monitoring function of the design is completed.

The following describes in detail the usage steps of a wind power generation lighting street lamp in the present document with reference to fig. 1 to 5:

wind blows impeller 10 time drive impeller 10 rotates, impeller 10 drives wheel hub 67 rotates, wheel hub 67 drives impeller control pivot 45 rotates, impeller control pivot 45 drives impeller seat 11 rotates, impeller seat 11 drives wheel hub 67 rotates, wheel hub 67 drives low-speed electricity generation shaft 48 rotates, low-speed electricity generation shaft 48 drives low-speed electricity generation spur gear 49 rotates, low-speed electricity generation spur gear 49 drives high-speed electricity generation spur gear 50 rotates, high-speed electricity generation spur gear 50 drives high-speed electricity generation shaft 51 rotates, high-speed electricity generation shaft 51 drives generator 57 generates electricity, battery 58 accumulates the electric power of generator 57 output, when night, inverter 59 in battery 58 starts, inverter 59 controls battery 58 to discharge, the battery 58 supplies power to the street lamp 34, and the street lamp 34 illuminates the surrounding road.

When raining, rainwater on the street lamp bracket 33 passes through the water collecting pipe 32 enters into the water storage cavity 68, the water storage cavity 68 accumulates certain rainwater, when hot weather, the second water-discharging electromagnetic valve 38 is opened, rainwater in the water storage cavity 68 passes through the second water-discharging electromagnetic valve 38 and enters into the shower head seat 39, rainwater in the shower head seat 39 passes through the shower head 40 and spills onto green plants below the shower head 40, in addition, the water suction pump 35 is opened, rainwater in the water storage cavity 68 passes through the first water supply pipe 36 and enters into the water suction pump 35, rainwater of the water suction pump 35 passes through the second water supply pipe 31 and the third water supply pipe 56 and is conveyed into the rainwater package cavity 17, so that rainwater packages in the power generation cavity 15, the third cabin monitoring cavity 25 and the second cabin monitoring cavity 60, thereby reducing the power generation cavity 15 and the power generation cavity 15, Noise in the third cabin monitoring chamber 25 and the second cabin monitoring chamber 60.

When the wind direction changes, wind promotes the wind vane 19 rotates, the wind vane 19 drives the monitoring connecting rod 20 rotates, the monitoring connecting rod 20 drives the first cabin monitoring belt pulley 65 rotates, the first cabin monitoring belt pulley 65 drives the machine gun monitoring belt 63 for transmission, the machine gun monitoring belt 63 drives the second cabin monitoring belt pulley 62 to rotate, the second cabin monitoring belt pulley 62 drives the cabin monitoring rotating shaft 61 to rotate, the cabin monitoring rotating shaft 61 drives the first cabin monitoring spur gear 26 to rotate, the first cabin monitoring spur gear 26 simultaneously winds the second cabin monitoring spur gear 28 to move, the first cabin monitoring spur gear 26 drives the cabin monitoring rotating shaft 61 to wind the second cabin monitoring spur gear 28 to move, the cabin monitoring rotating shaft 61 drives the cabin 14 to wind the second cabin monitoring spur gear 28 to rotate, the engine room 14 drives the low-speed power generation shaft 48 to rotate, the low-speed power generation shaft 48 drives the hub 67 to rotate, the hub 67 drives the impeller seat 11 to rotate, the impeller seat 11 drives the impeller monitoring rotating shaft 45 to rotate, the impeller monitoring rotating shaft 45 drives the impeller 10 to rotate, and finally the impeller 10 is opposite to the wind direction, so that the impeller 10 obtains the highest rotating speed, and the power generation efficiency is highest at the moment.

When the wind speed is too high, the wind pushes the anemoscope 21 to rotate rapidly, the wind speed measuring element 23 measures the rotating speed of the anemoscope 21, the wind speed measuring element 23 controls the impeller monitoring motor 43 to be opened, the impeller monitoring motor 43 drives the impeller monitoring motor shaft 42 to rotate, the impeller monitoring motor shaft 42 drives the first impeller monitoring bevel gear 46 to rotate, the first impeller monitoring bevel gear 46 drives the second impeller monitoring bevel gear 47 to rotate, the second impeller monitoring bevel gear 47 drives the impeller monitoring rotating shaft 45 to rotate, the impeller monitoring rotating shaft 45 drives the impeller 10 to rotate, the impeller 10 deviates by a certain angle, the rotating speed of the impeller 10 is reduced, the generator 57 does not exceed the rated generating power, and therefore the generator 57 is protected.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims

1. The utility model provides a wind power generation street lighting, includes that lower extreme fixed connection sets up in subaerial base, its characterized in that: the street lamp comprises a base, a lamp holder for supporting a street lamp is fixedly arranged at the upper end of the base, an engine room is rotatably arranged at the uppermost end of the lamp holder, a wind power generation device impeller for providing power for the street lamp is arranged at the left end of the engine room, the wind power generation device impeller comprises a rotatable hub, an impeller seat is fixedly arranged on the periphery of the hub, the impeller seat is rotatably provided with an impeller, when wind passes through the impeller, the impeller can be driven to rotate, so that wind energy is converted into mechanical energy generated by rotary motion, a generator for converting the mechanical energy generated by rotation into electric energy is fixedly arranged in the right end wall of a power generation cavity arranged in the engine room, when the impeller rotates, the generator can be driven to generate power through gear transmission in the power generation cavity, the power is transmitted into a storage battery arranged above the generator and used for storing the electric energy, and the storage battery can continuously store the electric, the street lamp is used for the street lamp at night, an inverter used for discharging at night is arranged in the storage battery, a light ray measuring element used for measuring the intensity of ambient light rays is fixedly arranged on the upper side end face of the cabin, when the day is over, the light ray measuring element measures that the ambient light rays are weakened, the light ray measuring element controls the inverter to be started, the inverter controls the storage battery to discharge, the electric power in the storage battery is supplied to the street lamp and enables the street lamp to be lightened to illuminate the road, a monitoring device impeller used for detecting the ambient environment condition is arranged on the right side of the cabin, the monitoring device impeller comprises a monitoring connecting rod arranged on the right side of the cabin, a wind vane and a wind speed indicator are rotatably arranged on the monitoring connecting rod, the wind vane can control the cabin to rotate when the wind direction changes, so that the impeller always faces the wind direction, thereby obtaining the maximum rotating speed, the anemometer can control the impeller to deviate a certain angle with the wind direction when the wind speed is too high, thereby reducing the rotating speed of the impeller and playing a certain protection role, a water storage device impeller used for storing rainwater is arranged below the engine room, the water storage device impeller comprises a water suction pump fixedly arranged in the lamp holder, the water suction pump is communicated with a water storage cylinder fixedly connected and arranged on the lamp holder and used for storing rainwater, the water pump can convey the rainwater in the water storage tank to a rainwater wrapping cavity arranged in the engine room, so that the noise generated in the engine room is converted into the vibration of the rainwater, the noise is effectively reduced, the water storage tank can spray rainwater to plants on two sides of the lamp bracket through the shower head arranged below the water storage tank in hot days, and finally the wind power generation lighting street lamp is designed.

2. The wind power generation street lighting as set forth in claim 1, wherein: the impeller of the wind power generation device comprises a street lamp bracket which is fixedly connected and arranged on the lamp bracket below the engine room, the street lamp is fixedly connected with the bottom end of the street lamp bracket, the left end of the wheel hub is fixedly connected with the air guide sleeve, a low-speed power generation shaft is fixedly connected with the right end wall of the hub, a low-speed power generation straight gear is fixedly connected with the low-speed power generation shaft in the power generation cavity, the left end of the generator is fixedly connected with a high-speed generating shaft, the left end of the high-speed generating shaft is fixedly connected with a high-speed generating straight gear meshed with the low-speed generating straight gear, a brake motor is fixedly connected in the bottom wall of the power generation cavity, a brake clamp is fixedly connected at the upper end of the brake motor, the brake clamp is provided with a brake turntable which is fixedly connected with the high-speed power generation shaft so as to complete the wind power generation function of the design.

3. The wind power generation street lighting as set forth in claim 1, wherein: the water storage device impeller comprises a water storage cavity arranged in the water storage cylinder, the lamp bracket penetrates through the water storage cavity, a second water discharge electromagnetic valve is fixedly connected between the bottom wall of the left side of the water storage cavity and the upper end wall of the shower head seat, a shower head is arranged on the lower end wall of the shower head seat, a water collecting water pipe is fixedly connected between the top wall of the right side of the water storage cavity and the upper end wall of the street lamp bracket, a first water supply water pipe is fixedly connected between the water storage cavity and the left end of the water suction pump, a second water supply water pipe is fixedly connected with the upper end of the water suction pump, the rainwater wrapping cavity is communicated with the outside of the third cabin monitoring cavity, the power generation cavity and the second cabin monitoring cavity, a first water discharge electromagnetic valve is arranged in the bottom end of the right wall of the rainwater wrapping cavity, and a cabin chassis fixedly connected and arranged on the lamp bracket is rotatably connected in the lower end, the upper end wall of the cabin chassis is connected with the lower end wall of the rainwater wrapping cavity, a third water supply pipe penetrating through the cabin chassis is arranged at the left end of the cabin chassis, and the lower end of the third water supply pipe is fixedly connected with the second water supply pipe so as to complete the water storage function of the design.

4. The wind power generation street lighting as set forth in claim 1, wherein: the monitoring device impeller comprises a monitoring base fixedly connected and arranged on the right side end wall of the cabin, a first cabin monitoring cavity is arranged in the monitoring base, a monitoring connecting rod is arranged above the first cabin monitoring cavity and the monitoring base in a rotating connection mode, a first cabin monitoring belt pulley is fixedly connected in the first cabin monitoring cavity by the monitoring connecting rod, a wind vane shaft sleeve is fixedly connected at the upper end of the monitoring connecting rod, the wind vane is fixedly connected on the wind vane shaft sleeve, an anemoscope shaft sleeve fixedly connected and arranged on the monitoring connecting rod is arranged below the wind vane, the anemoscope is arranged on the anemoscope shaft sleeve in a rotating connection mode, an anemoscope measuring element fixedly connected and arranged on the anemoscope shaft sleeve is arranged below the anemoscope shaft sleeve, a second cabin monitoring cavity is arranged in the cabin, and a third cabin monitoring cavity is arranged below the second cabin monitoring cavity, the second cabin monitoring cavity is connected with the third cabin monitoring cavity in a rotating mode and is provided with a cabin monitoring rotating shaft, the cabin monitoring rotating shaft is fixedly connected with a second cabin monitoring belt wheel in the second cabin monitoring cavity and is in transmission connection with a gun monitoring belt on the ss first cabin monitoring belt wheel, the cabin monitoring rotating shaft is fixedly connected with a first cabin monitoring straight gear in the third cabin monitoring cavity and is provided with a cabin monitoring straight gear connecting rod, the upper end of the lamp bracket is fixedly connected with a cabin monitoring straight gear connecting rod in the third cabin monitoring cavity, the upper end of the cabin monitoring straight gear connecting rod is fixedly connected with a second cabin monitoring straight gear meshed with the first cabin monitoring straight gear, the tail part of the impeller is fixedly connected with a tail wing, the tail part of the tail wing is fixedly connected with a tail edge, and a monitoring cavity is arranged in the impeller hub, the impeller monitoring device is characterized in that an impeller monitoring motor is arranged in the end wall of the right side of the impeller monitoring cavity, an impeller monitoring motor shaft is arranged at the left end of the impeller monitoring motor in a power connection mode, a first impeller monitoring bevel gear is fixedly connected in the impeller monitoring cavity at the left end of the impeller monitoring motor shaft, an impeller monitoring rotating shaft is arranged between the impeller and the impeller monitoring cavity in a rotating connection mode, the outer end of the impeller monitoring rotating shaft is fixedly connected with the impeller, and the inner end of the impeller monitoring rotating shaft is fixedly connected in the impeller monitoring cavity and provided with a second impeller monitoring bevel gear meshed with the first impeller monitoring bevel gear, so that the monitoring function of the impeller monitoring device is achieved.